The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm

We investigated three areas of uncertainty about the role of vision in basketball shooting, the timing of fixations (early, late), the location of fixations (hoop centre, non-centre) and the effect of the defender on performance. We also sought to overcome a limitation of past quiet eye studies that...

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Main Authors: Joan N. Vickers, Joe Causer, Dan Vanhooren
Format: Article
Language:English
Published: Frontiers Media S.A. 2019-10-01
Series:Frontiers in Psychology
Subjects:
Online Access:https://www.frontiersin.org/article/10.3389/fpsyg.2019.02424/full
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spelling doaj-e0d366c886b7457db7e21300ac036d072020-11-25T01:55:51ZengFrontiers Media S.A.Frontiers in Psychology1664-10782019-10-011010.3389/fpsyg.2019.02424482843The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research ParadigmJoan N. Vickers0Joe Causer1Dan Vanhooren2Faculty of Kinesiology, University of Calgary, Calgary, AB, CanadaResearch Institute for Sport and Exercise Sciences, Liverpool John Moores University, Liverpool, United KingdomFaculty of Kinesiology, University of Calgary, Calgary, AB, CanadaWe investigated three areas of uncertainty about the role of vision in basketball shooting, the timing of fixations (early, late), the location of fixations (hoop centre, non-centre) and the effect of the defender on performance. We also sought to overcome a limitation of past quiet eye studies that reported only one quiet eye (QE) period prior to a phase of the action. Elite basketball players received the pass and took three-point shots in undefended and defended conditions. Five sequential QE periods were analyzed that were initiated prior to each phase of the shooting action: QE catch, QE arm preparation, QE arm flexion, QE arm extension, and QE ball release. We used a novel design in which the number of hits and misses were held constant by condition, thus leaving the timing and location of QE fixations free to vary across the phases during an equal number of successful and unsuccessful trials. The number of QE fixations accounted for 87% of total fixations. The greatest percent occurred during QE catch (43.6%), followed by QE arm flexion (34.1%), QE arm extension (17.5%) and QE ball release (4.8%). No fixations were found prior to QE arm preparation, due to a saccade made immediately to the target after QE catch. Fixation frequency averaged 2.20 per trial, and 1.25 during the final shooting action, meaning that most participants had time for only one fixation as the shot was taken. Accuracy was enhanced when: (1) an early QE offset occurred prior to the catch, (2) an early saccade was made to the target, (3) a longer QE duration occurred during arm flexion, and (4) QE arm flexion was located on the centre of the hoop, rather than on non-centre locations. Overall, the results provide evidence that vision of the hoop was severely limited during the last phase of the shooting action (QE ball release). The significance of the results is explored in the discussion, along with a QE training program designed to improve three-point shooting. Overall, the results greatly expand the role of the QE in explaining optimal motor performance.https://www.frontiersin.org/article/10.3389/fpsyg.2019.02424/fullvisionmotor controlattentionperception-actionexpertiseeye tracking
collection DOAJ
language English
format Article
sources DOAJ
author Joan N. Vickers
Joe Causer
Dan Vanhooren
spellingShingle Joan N. Vickers
Joe Causer
Dan Vanhooren
The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
Frontiers in Psychology
vision
motor control
attention
perception-action
expertise
eye tracking
author_facet Joan N. Vickers
Joe Causer
Dan Vanhooren
author_sort Joan N. Vickers
title The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
title_short The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
title_full The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
title_fullStr The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
title_full_unstemmed The Role of Quiet Eye Timing and Location in the Basketball Three-Point Shot: A New Research Paradigm
title_sort role of quiet eye timing and location in the basketball three-point shot: a new research paradigm
publisher Frontiers Media S.A.
series Frontiers in Psychology
issn 1664-1078
publishDate 2019-10-01
description We investigated three areas of uncertainty about the role of vision in basketball shooting, the timing of fixations (early, late), the location of fixations (hoop centre, non-centre) and the effect of the defender on performance. We also sought to overcome a limitation of past quiet eye studies that reported only one quiet eye (QE) period prior to a phase of the action. Elite basketball players received the pass and took three-point shots in undefended and defended conditions. Five sequential QE periods were analyzed that were initiated prior to each phase of the shooting action: QE catch, QE arm preparation, QE arm flexion, QE arm extension, and QE ball release. We used a novel design in which the number of hits and misses were held constant by condition, thus leaving the timing and location of QE fixations free to vary across the phases during an equal number of successful and unsuccessful trials. The number of QE fixations accounted for 87% of total fixations. The greatest percent occurred during QE catch (43.6%), followed by QE arm flexion (34.1%), QE arm extension (17.5%) and QE ball release (4.8%). No fixations were found prior to QE arm preparation, due to a saccade made immediately to the target after QE catch. Fixation frequency averaged 2.20 per trial, and 1.25 during the final shooting action, meaning that most participants had time for only one fixation as the shot was taken. Accuracy was enhanced when: (1) an early QE offset occurred prior to the catch, (2) an early saccade was made to the target, (3) a longer QE duration occurred during arm flexion, and (4) QE arm flexion was located on the centre of the hoop, rather than on non-centre locations. Overall, the results provide evidence that vision of the hoop was severely limited during the last phase of the shooting action (QE ball release). The significance of the results is explored in the discussion, along with a QE training program designed to improve three-point shooting. Overall, the results greatly expand the role of the QE in explaining optimal motor performance.
topic vision
motor control
attention
perception-action
expertise
eye tracking
url https://www.frontiersin.org/article/10.3389/fpsyg.2019.02424/full
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